Plant clonality in a soil-impoverished open ecosystem: insights from southwest Australian shrublands

Author:

Tsakalos James L12ORCID,Ottaviani Gianluigi34ORCID,Chelli Stefano1ORCID,Rea Alethea2ORCID,Elder Scott2,Dobrowolski Mark P256ORCID,Mucina Ladislav27ORCID

Affiliation:

1. School of Biosciences and Veterinary Medicine, Plant Diversity and Ecosystems Management Unit, University of Camerino , Camerino, MC , Italy

2. Harry Butler Institute, Murdoch University , Murdoch, Perth, WA , Australia

3. Department of Botany and Zoology, Faculty of Science, Masaryk University , Brno , Czech Republic

4. Institute of Botany, The Czech Academy of Sciences , Třeboň , Czech Republic

5. School of Biological Sciences, The University of Western Australia , Perth, WA , Australia

6. Iluka Resources Ltd , Perth, WA, Western Australia , Australia

7. Department of Geography and Environmental Studies, Centre for Geographic Analysis, Stellenbosch University , Matieland, Stellenbosch , South Africa

Abstract

Abstract Background and Aims Clonality is a key life-history strategy promoting on-spot persistence, space occupancy, resprouting after disturbance, and resource storage, sharing and foraging. These functions provided by clonality can be advantageous under different environmental conditions, including resource-paucity and fire-proneness, which define most mediterranean-type open ecosystems, such as southwest Australian shrublands. Studying clonality–environment links in underexplored mediterranean shrublands could therefore deepen our understanding of the role played by this essential strategy in open ecosystems globally. Methods We created a new dataset including 463 species, six traits related to clonal growth organs (CGOs; lignotubers, herbaceous and woody rhizomes, stolons, tubers, stem fragments), and edaphic predictors of soil water availability, nitrogen (N) and phosphorus (P) from 138 plots. Within two shrubland communities, we explored multivariate clonal patterns and how the diversity of CGOs, and abundance-weighted and unweighted proportions .of clonality in plots changed along with the edaphic gradients. Key Results We found clonality in 65 % of species; the most frequent were those with lignotubers (28 %) and herbaceous rhizomes (26 %). In multivariate space, plots clustered into two groups, one distinguished by sandy plots and plants with CGOs, the other by clayey plots and non-clonal species. CGO diversity did not vary along the edaphic gradients (only marginally with water availability). The abundance-weighted proportion of clonal species increased with N and decreased with P and water availability, yet these results were CGO-specific. We revealed almost no relationships for unweighted clonality. Conclusions Clonality is more widespread in shrublands than previously thought, and distinct plant communities are distinguished by specific suites (or lack) of CGOs. We show that weighting belowground traits by aboveground abundance affects the results, with implications for trait-based ecologists using abundance-weighting. We suggest unweighted approaches for belowground organs in open ecosystems until belowground abundance is quantifiable.

Funder

The LIFE MODERn

Publisher

Oxford University Press (OUP)

Subject

Plant Science

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